WO2015040963A1

WO2015040963A1 - Lens control device, image pickup device, information processing device, image pickup system and method, and computer readable storage medium

Info

Publication number: WO2015040963A1
Application number: PCT/JP2014/070158
Authority: WO
Inventors: 伊藤　亮吾; 和馬赤松; 恵美高城; 勝又　俊介
Original assignee: ソニー株式会社
Priority date: 2013-09-17
Filing date: 2014-07-31
Publication date: 2015-03-26
Also published as: EP3048463A4; JP6358259B2; US20190387154A1; US20150077593A1; EP3048463B1; EP3048463A1; CN108881726B; US20160316131A1; EP3683624A1; CN105531614B; JP2018077481A; CN105531614A; JPWO2015040963A1; JP6365756B2; US9420188B2; US11509811B2; JP2018173655A; CN108881726A; US10447909B2

Abstract

A camera control unit (45) performs drive control of a zoom lens of an image pickup optical system block (31) in accordance with a zoom operation received by an operation input unit (44) or a zoom control signal received by a wireless communication unit (41). The camera control unit (45) makes a zoom-position change speed a different speed by using the drive control according to a zoom operation and the drive control according to a zoom control signal. Consequently, the zoom-position change speed can be switched between a speed that is suitable for a zoom operation received by the operation input unit (44) and a speed that is suitable for a zoom operation of a zoom control signal, i.e., a zoom operation carried out using an external device, and therefore, whether the zoom operation is carried out by an image pickup device or an external device, the zoom operation can be carried out with favorable operability.

Description

LENS CONTROL DEVICE, IMAGING DEVICE, INFORMATION PROCESSING DEVICE, IMAGING SYSTEM AND METHOD, AND COMPUTER-READABLE STORAGE MEDIUM

This technology relates to a lens control device, an imaging device, an information processing device, an imaging system and method, and a computer-readable storage medium so that a zoom operation with good operability can be performed.

Conventionally, an imaging apparatus is configured such that the angle of view can be adjusted by moving a zoom lens in accordance with an operation of a zoom lever or a zoom key. For example, in Patent Document 1, manual zoom is realized by electrically moving a zoom lens according to the movement of a zoom lever. In addition, when the movement of the zoom lens is controlled by pressing the zoom key, the zoom lever is electrically moved in conjunction with the movement of the zoom lens to adjust the angle of view at the position of the zoom lever without looking at the screen. It is configured to be able to do.

In addition, imaging that enables wireless communication between an imaging device and an external device, for example, an information processing device, allows an application having a function that enables remote control of the imaging device to operate on the information processing device, and allows the imaging device to be operated from the information processing device A system has also been proposed.

JP-A-10-191141

By the way, in an imaging system that operates an imaging device from an external device through communication, there is a difference between when the imaging device is operated with an operation switch or the like provided in the imaging device and when the imaging device is operated with an information processing device. It was not considered.

When operating the imaging apparatus with the information processing apparatus, for example, the information processing apparatus detects a zoom operation start and transmits a zoom operation start instruction to the imaging apparatus, or detects a zoom operation end and captures a zoom operation end instruction. Processing to transmit to the device is required. In addition, the imaging apparatus needs to receive a zoom operation start instruction or a zoom operation end instruction and perform zoom operation control based on the received instruction. On the other hand, when operating an operation switch or the like provided in the image pickup apparatus, the image pickup apparatus only needs to perform zoom operation control according to the operation of the operation switch or the like. For this reason, when the imaging apparatus is operated by the information processing apparatus, the time required for processing becomes longer than when an operation switch or the like provided in the imaging apparatus is operated, and for example, the zoom stop response is deteriorated. Thus, if the zoom stop responsiveness deteriorates, the positional deviation between the zoom position when the user stops the zoom operation and the actual zoom position (zoom stop position) becomes large. Therefore, when the zoom operation of the imaging apparatus is performed by the information processing apparatus, for example, in order to move the zoom position to a desired position, it is necessary to perform an operation considering deterioration of responsiveness, which may cause a decrease in operability. is there.

Therefore, in this technique, a lens control device, an imaging device, an information processing device, an imaging system, a method, and a program capable of performing a zoom operation with good operability regardless of whether the zoom operation is performed by an imaging device or an external device. The purpose is to provide.

According to a first aspect of the technology, an operation input unit that receives a user operation, a communication unit that communicates with an external device, a zoom operation received by the operation input unit, or a zoom control signal received by the communication unit The lens control device includes a control unit that performs drive control of the zoom lens and sets the zoom position change speed to be different between the drive control according to the zoom operation and the drive control according to the zoom control signal.

In the lens control device of this technology, the zoom lens drive control is performed according to the zoom operation received by the operation input unit or the zoom control signal received by wireless communication with the external device via the communication unit, for example, according to the zoom operation In contrast to the drive control, the zoom position change speed is slower in the drive control according to the zoom control signal. In the drive control according to the zoom control signal, the zoom drive control of the zoom lens is started at a slower speed than the drive control according to the zoom operation, and then the zoom position change speed is set to the zoom drive control according to the zoom operation. It is also possible to switch to the zoom position change speed. Further, when the zoom control signal indicates that a zoom operation shorter than a predetermined period has been performed in the external device, drive control is performed only for a preset period. When the target zoom position is indicated by the zoom control signal, the zoom position of the zoom lens is changed to the target zoom position indicated by the zoom control signal, and the zoom position change speed is indicated by the zoom control signal. The zoom position of the zoom lens is changed at the zoom position change speed indicated by the zoom control signal. Further, information indicating the zoom position of the zoom lens is transmitted to the external device.

According to a second aspect of this technology, the communication unit communicates with an external device, and the control unit drives the zoom lens according to the zoom operation received by the operation input unit or the zoom control signal received by the communication unit. The lens control method includes a step of performing a control so that the zoom position changing speed is different between the drive control according to the zoom operation and the drive control according to the zoom control signal.

A third aspect of this technique is a computer that performs zoom lens drive control, a procedure for communicating with an external device via a communication unit, a zoom operation received by an operation input unit, or the external operation via the communication unit. The zoom lens drive control is performed according to the zoom control signal received from the apparatus, and the zoom position change speed is different between the drive control according to the zoom operation and the drive control according to the zoom control signal. The computer-readable storage medium stores the program to be executed.

According to a fourth aspect of the present technology, an imaging optical system including a zoom lens, an operation input unit that receives a user operation, a communication unit that communicates with an external device, a zoom operation in the operation input unit, or reception by the communication unit A control unit configured to perform drive control of the zoom lens in accordance with the zoom control signal, and to change the zoom position change speed between the drive control according to the zoom operation and the drive control according to the zoom control signal. In the imaging device.

According to a fifth aspect of the present technology, at least any one of a communication unit that communicates with an imaging device, an operation input unit that receives a user operation, an operation position and an operation period of a zoom operation in the operation input unit, and a movement amount of the operation position Accordingly, the information processing apparatus includes a control unit that generates a zoom control signal for controlling a zoom operation in the imaging apparatus and outputs the zoom control signal to the imaging apparatus via the communication unit.

In the information processing apparatus of this technology, a captured image is acquired from the imaging apparatus by wireless communication and displayed on, for example, a display unit. In addition, a zoom control signal for controlling a zoom operation in the imaging apparatus is generated according to the operation position of the user operation in the operation input unit or the movement amount of the operation position, and is output to the imaging apparatus via the communication unit. For example, the zoom position change period of the zoom operation in the imaging apparatus is set according to the movement amount of the operation position in the pinch operation. Further, the target zoom position of the zoom operation in the imaging apparatus is determined from the zoom position of the zoom lens acquired from the imaging apparatus and the movement amount of the operation position in the pinch operation. Further, the zoom position changing speed of the zoom operation in the imaging apparatus is determined according to the moving speed of the operation position in the pinch operation.

According to a sixth aspect of the present technology, at least one of the step of communicating with the imaging device at the communication unit, the operation position of the zoom operation received by the operation input unit at the control unit, the operation period, and the movement amount of the operation position. Accordingly, there is provided an information processing method including a step of generating a zoom control signal for controlling a zoom operation in the imaging apparatus and outputting the zoom control signal to the imaging apparatus via the communication unit.

A seventh aspect of this technique is a computer that performs drive control of a zoom lens provided in an imaging apparatus, and performs a procedure for communicating with the imaging apparatus via a communication unit and a zoom operation received by an operation input unit. Accordingly, a zoom control signal for controlling a zoom operation in the imaging apparatus is generated and output to the imaging apparatus via the communication unit, and a zoom operation by the operation input unit of the imaging apparatus is performed. The computer-readable storage medium stores a program in which the zoom position change speed differs between the drive control of the corresponding zoom operation and the drive control of the zoom operation according to the zoom control signal.

An eighth aspect of the technology includes an imaging device and an information processing device, and the imaging device communicates with an imaging optical system including a zoom lens, an operation input unit that receives a user operation, and the information processing device. A communication unit; and a control unit that performs drive control of the zoom lens according to a zoom operation in the operation input unit or a zoom control signal received by the communication unit, and the information processing apparatus communicates with the imaging apparatus. Generating a zoom control signal for controlling a zoom operation in the imaging device according to a zoom operation in the operation input unit, and a communication control unit for receiving a user operation, and the communication unit through the communication unit A control unit that outputs to the imaging device, and a drive control according to the zoom operation in the control unit of the imaging device and a drive control according to the zoom control signal. Over beam position change rates in different imaging systems.

Note that the program of the present technology is, for example, a storage medium or a communication medium provided in a computer-readable format to a general-purpose computer that can execute various program codes, such as an optical disk, a magnetic disk, or a semiconductor memory. It is a program that can be provided by a medium or a communication medium such as a network. By providing such a program in a computer-readable format, processing corresponding to the program is realized on the computer.

According to this technique, drive control of the zoom lens is performed according to the zoom operation received by the operation input unit or the zoom control signal received by the communication unit, and according to the drive control and the zoom control signal according to the zoom operation. The zoom position change speed is set to a different speed depending on the drive control. For this reason, the zoom position change speed is switched between a speed suitable for the zoom operation received by the operation input unit and a speed suitable for the zoom operation performed by the zoom control signal, that is, the external device. Therefore, it is possible to perform a zoom operation with good operability regardless of whether the zoom operation is performed by the imaging apparatus or the external apparatus. Note that the effects described in the present specification are merely examples and are not limited, and may have additional effects.

It is the figure which illustrated the appearance (back side) of an imaging system. It is the figure which illustrated the appearance (front side) of an imaging system. It is the figure which illustrated the case where an imaging device and information processing apparatus were integrated using an adapter. It is the block diagram which illustrated the functional composition of the imaging device. It is the block diagram which illustrated the functional composition of information processor (for example, smart phone). It is a sequence diagram which shows the operation | movement process until the cooperation function of an imaging device and information processing apparatus is started. It is a flowchart which shows operation | movement of an imaging device. It is the figure which illustrated the change characteristic of the zoom position. It is a flowchart which shows a zoom position notification process. It is a flowchart which shows operation | movement of information processing apparatus. It is a flowchart which shows a zoom position display process. It is the figure which illustrated the display screen of the display part in information processing apparatus. It is the figure which illustrated the change characteristic of the zoom position of other operations. It is a flowchart which shows operation | movement in the case of performing zoom drive control according to the operation time of pinch operation. It is a flowchart which shows operation | movement in the case of performing zoom drive control according to the moving amount | distance of pinch operation. It is a flowchart which shows a zoom operation instruction. It is a flowchart which shows operation | movement in the case of performing zoom drive control according to the movement amount of pinch operation, and the present zoom magnification (zoom position).

Hereinafter, embodiments for carrying out the present technology will be described. The description will be given in the following order.
1. 1. Configuration of imaging system 1-1. Appearance of imaging system 1-2. Functional configuration of imaging apparatus 1-3. 1. Functional configuration of information processing apparatus Operation of imaging system 2-1. Cooperation between imaging device and information processing device 2-2. Zoom operation of image pickup apparatus 2-3. 2. Zoom control operation of information processing apparatus 3. Other operations of imaging system 3-1. Other operations of the imaging apparatus 3-2. Other operations of information processing equipment

<1. Configuration of imaging system>
The imaging system has an imaging device and an information processing device. The imaging device has a zoom function so that, for example, image information of a still image or a moving image having a desired angle of view can be generated. Further, the imaging apparatus has a wireless communication function, and wireless communication with the information processing apparatus is possible. The imaging device performs an operation based on a control signal supplied from the information processing device by wireless communication. Furthermore, the imaging device outputs various information to the information processing device by wireless communication.

The information processing apparatus is a device having a display function and a wireless communication function. For example, a mobile phone, a smartphone, a tablet terminal, a laptop computer, or the like can be used as the information processing apparatus. The information processing device generates a control signal for operating the imaging device and outputs the control signal to the imaging device by wireless communication. Further, the information processing apparatus processes information supplied from the imaging apparatus by wireless communication. For example, the information processing apparatus displays a captured image based on image information supplied from the imaging apparatus.

[1-1. Appearance of imaging system]
1 and 2 illustrate the appearance of an imaging system as an embodiment of the present technology. 1 shows the back side of the imaging system, and FIG. 2 shows the front side of the imaging system. Moreover, for example, a smartphone is used as the information processing apparatus.

The imaging system 10 includes an imaging device 20 and an information processing device (for example, a smartphone) 50.

The imaging device 20 includes an imaging optical system block, an imaging unit, a signal processing unit, a communication unit, a camera control unit, and the like, not shown, inside an outer cylinder unit 21 formed in a cylindrical shape. An annular control ring 22 is provided at the front end portion of the outer cylinder portion 21. The imaging device 20 changes the focus position and the zoom position according to the rotation of the control ring 22. Therefore, if the control ring 22 is used, manual operations such as focus adjustment can be performed. A zoom button 441 and a shutter button 442 are provided on the side surface of the outer cylinder portion 21. The imaging device 20 changes the zoom position to the wide-angle side or the telephoto side at a predetermined speed according to the operation of the zoom button 441. Further, in the still image mode, the imaging device 20 performs processing for recording a still image when the shutter button 442 is operated by the user on a recording medium. Further, in the moving image mode, the imaging device 20 starts or ends the recording of the moving image according to the operation of the shutter button 442.

The information processing apparatus 50 is formed in a substantially rectangular parallelepiped case shape, and has a signal processing unit, a communication unit, a control unit, etc., not shown, inside the outer casing 51. A display panel 52 is provided on one surface (rear surface) of the outer casing 51. The display panel 52 is a touch panel, and various functions are executed by operating predetermined positions of the display panel 52.

The imaging system 10 is not limited to the case where the imaging device 20 and the information processing device 50 are used in an integrated manner as shown in FIGS. 1 and 2, and can be used separately. FIG. 3 illustrates the case where the imaging device 20 and the information processing device 50 are integrated using the adapter 80.

A disc-shaped rear panel 25 is attached to the rear end of the imaging device 20. A coupling portion 26 protruding rearward is provided on the outer peripheral portion of the rear panel 25. A lock pin 27 movable in the front-rear direction is supported on the rear panel 25 so as to be movable in the front-rear direction, and the lock pin 27 is urged rearward by an urging member (not shown). The imaging device 20 is provided with a lock release lever (not shown), and is configured such that the lock pin 27 is pulled into the rear panel 25 when the lock release lever is operated.

The adapter 80 has a pair of attached bodies 82 at the end of the cylindrical casing 81 having a size corresponding to the outer cylinder portion 21 of the imaging device 20. It is rotatably provided so as to stand up from the surface 85. Further, the mounted body 82 is urged by the urging member in the direction from the standing state to the lying state. The pair of attached bodies 82 has a substantially flat sandwiching portion 83 and a holding projection 84 projecting inward from the tip of the sandwiching portion 83. The second facing surface 86 of the housing 81 facing the imaging device 20 is provided with a coupling recess into which the coupling portion 26 of the imaging device 20 is inserted and a lock hole into which the lock pin 27 is inserted, not shown. Yes.

When connecting the imaging device 20 and the adapter 80, the user rotates the imaging device 20 in a predetermined direction after inserting the coupling portion 26 of the imaging device 20 into the coupling recess of the adapter 80. The coupling portion 26 is inserted into the coupling recess and rotated to be locked with the engagement recess. Further, when the coupling portion 26 is locked in the coupling recess, the lock pin 27 is inserted into the lock hole. Accordingly, the imaging device 20 and the adapter 80 can be locked in a connected state. Further, when separating the imaging device 20 and the adapter 80, the lock release lever is operated to rotate the imaging device 20 in the direction opposite to the predetermined direction. When the lock release lever is operated, the lock pin 27 is removed from the lock hole, and in this state, the imaging device 20 rotates in the reverse direction to release the engagement state between the coupling portion 26 and the coupling recess. . Therefore, the imaging device 20 and the adapter 80 can be separated.

When connecting the adapter 80 to the information processing apparatus 50, the user sets the attached body 82 of the adapter 80 upright from the first facing surface 85. In addition, the user holds the outer casing 51 by the holding portion 83 of the pair of attached bodies 82 with the interval between the pair of attached bodies 82 being a width corresponding to the outer casing 51 of the information processing apparatus 50. The holding projection 84 is locked to the rear surface (display panel side) of the outer casing 51. In this way, the adapter 80 can be connected to the information processing apparatus 50. The information processing device 50 and the adapter 80 may be separated by releasing the holding state by the holding portion 83 and the locking state by the holding protrusion 84.

Thus, if the imaging device 20, the information processing device 50, and the adapter 80 are configured, the imaging device 20 and the information processing device 50 can be used in an integrated manner or can be used separately. The configuration of the adapter 80 is not limited to the configuration shown in FIG. Further, the imaging device 20 and the information processing device 50 may be configured to be integrated and separable without using the adapter 80.

[1-2. Functional configuration of imaging device]
Next, the functional configuration of the imaging apparatus will be described. FIG. 4 is a block diagram illustrating a functional configuration of the imaging apparatus.

As shown in FIG. 4, the imaging apparatus 20 includes an imaging optical system block 31, an imaging unit 32, an image processing unit 33, a recording / reproducing unit 34, a display unit 35, a power supply unit 36, a timekeeping unit 37, a storage unit 38, and posture detection. Unit 39, wireless communication unit 41, operation input unit 44, and camera control unit 45. In addition, a recording medium 46 is detachably provided in the imaging device 20.

The imaging optical system block 31 includes a lens group including a focus lens and a zoom lens, a diaphragm adjustment mechanism, and a drive unit that drives the lens group and the diaphragm adjustment mechanism. The imaging optical system block 31 may include a shutter mechanism, a camera shake correction mechanism, and the like.

The imaging unit 32 is configured using an imaging device such as a CCD (Charge-Coupled Device) or a CMOS (Complementary Metal-Oxide Semiconductor). The imaging unit 32 converts the subject optical image formed by the imaging optical system block 31 into an image signal. The imaging unit 32 outputs an image signal generated by photoelectric conversion to the image processing unit 33.

The image processing unit 33 performs various signal processing on the image signal output from the imaging unit 32. For example, the image processing unit 33 performs noise removal, color tone correction, edge detection, and the like as necessary. The image processing unit 33 outputs the processed image signal to the recording / reproducing unit 34.

The recording / reproducing unit 34 uses the recording medium 46 to record a captured image and reproduce the recorded captured image. The recording / reproducing unit 34 records the image signal of the still image or the moving image generated by the imaging unit 32 and processed by the image processing unit 33 on the recording medium 46. The recording / reproducing unit 34 reproduces still images and moving images recorded on the recording medium 46 and reads out image signals. Note that the recording / reproducing unit 34 may record the image signal before being processed by the image processing unit 33 on the recording medium 46. The recording / reproducing unit 34 may perform an encoding process for compressing the signal amount of the image signal to be recorded on the recording medium 46 and a decoding process for the encoded data recorded on the recording medium 46.

The display unit 35 is configured using, for example, a liquid crystal display element or the like, and displays a captured image and information indicating a setting state and an operation state of the imaging device 20. The power supply unit 36 includes a battery and a power supply circuit. The power supply unit 36 supplies power to each unit of the imaging device 20 in accordance with a control signal output from the camera control unit 45. The timer 37 measures the time and outputs time information indicating the current time to the recording / reproducing unit 34 so that the imaging time can be recorded together with the captured image.

The storage unit 38 is a recording medium such as a RAM (Random Access Memory) and a ROM (Read Only Memory). The RAM is used as a work area of the camera control unit 45, for example. The ROM stores a program for executing various controls by the camera control unit 45, for example. In addition, the ROM and RAM store control information used for performing various controls by the camera control unit 45.

The posture detection unit 39 detects the posture and posture change of the imaging device 20. The posture detection unit 39 is configured by using a gravity sensor, a gyro sensor, a triaxial acceleration sensor, or the like. The posture change of the imaging device 20 in the vertical direction or the horizontal direction, and the optical axis of the imaging optical system block 31 as a rotation axis. The rotation position, rotation position change, and the like of the image pickup apparatus 20 are detected. The posture detection unit 39 outputs a posture detection signal to the camera control unit 45. If the attitude detection signal is output to the information processing apparatus 50 together with the image signal of the captured image, the captured image can be displayed in consideration of the attitude of the imaging apparatus 20. For example, when the imaging device 20 is tilted with respect to the horizontal direction and a captured image is generated, in the information processing device 50, a subject that is not tilted with respect to the horizontal direction is tilted with respect to the horizontal direction. Will be displayed. However, if the tilt is corrected using the posture detection signal, it is possible to correctly display a subject that has not tilted in the horizontal direction as a tilt-free state.

The wireless communication unit 41 includes an NFC (Near Field Communication) communication unit 411, an NFC antenna 412, a Wi-Fi communication unit 413, and a Wi-Fi antenna 414.

The NFC communication unit 411 is an interface that performs non-contact communication with a nearby external device (for example, the information processing device 50) in cooperation with the NFC antenna 412 according to control by the camera control unit 45. The NFC communication unit 411 transmits radio waves that reach a short distance of about 3 cm to 10 cm from the NFC antenna 412 or about 7 mm depending on the design, and performs NFC communication with an external device included in the radio wave reachable range. The NFC communication unit 411 transmits, for example, connection information (Wi-Fi Configuration) for automatic Wi-Fi connection and AAR (Android Application Record) in accordance with a Check command from an external device. The connection information includes an SSID (Service Set Identifier), PassKey (encryption key), etc. for Wi-Fi connection.

The Wi-Fi communication unit 413 is an interface that performs wireless communication with surrounding external devices (for example, the information processing device 50) in cooperation with the Wi-Fi antenna 414 in accordance with control by the camera control unit 45. For example, in response to a Wi-Fi connection request from an external device, the Wi-Fi communication unit 413 performs Wi-Fi authentication and performs Wi-Fi communication connection establishment processing with the external device.

The operation input unit 44 detects an operation input by the user and outputs an operation signal corresponding to the user operation to the camera control unit 45. The operation input unit 44 includes the zoom button 441 and the shutter button 442 described above, and has a configuration in which functions are assigned in advance to physical switches.

The camera control unit 45 executes a program recorded in the storage unit 38 and generates a control signal based on an operation signal supplied from the operation input unit 44, control information stored in the storage unit 38, and the like. . The camera control unit 45 outputs the generated control signal to each unit, and performs imaging control, image processing control, recording / playback control, and the like so that the operation according to the user operation is performed by the imaging device 20. In addition, the camera control unit 45 controls the NFC communication unit 411 and the Wi-Fi communication unit 413 of the wireless communication unit 41 to perform wireless communication with the information processing device 50, and a zoom control signal supplied from the information processing device 50 Based on the zoom drive control. Furthermore, when performing zoom drive control according to the zoom operation received by the operation input unit 44 or the zoom control signal received by the wireless communication unit 41, the camera control unit 45 responds to the zoom operation received by the operation input unit 44. The zoom position changing speed is different between the zoom drive control and the zoom drive control according to the zoom control signal.

The recording medium 46 is a memory card or the like in which captured images are written, and is detachably provided.

[1-3. Functional configuration of information processing apparatus]
Next, the functional configuration of the information processing apparatus will be described. FIG. 5 is a block diagram illustrating a functional configuration of an information processing apparatus (for example, a smartphone).

As shown in FIG. 5, the information processing apparatus 50 includes a wireless communication unit 61, a voice input / output unit 62, a storage unit 63, a recording / reproducing unit 64, a power supply unit 65, a display unit 67, an operation input unit 68, and a control unit 70. Have. Further, the information processing apparatus 50 is provided with a recording medium 71 in a detachable manner.

The wireless communication unit 61 includes an NFC communication unit 611, an NFC antenna 612, a Wi-Fi communication unit 613, and a Wi-Fi antenna 614. Note that the wireless communication unit 61 may be provided with a communication unit corresponding to the cellular phone communication standard, not shown.

The NFC communication unit 611 is an interface that performs non-contact communication with an external device (for example, the imaging device 20) in close proximity in cooperation with the NFC antenna 612 according to control by the control unit 70. For example, the NFC communication unit 611 performs NFC communication with the imaging device 20 as described above.

The Wi-Fi communication unit 613 is an interface that performs wireless communication with a surrounding external device (for example, the imaging device 20) in cooperation with the Wi-Fi antenna 614 in accordance with control by the control unit 70. For example, the Wi-Fi communication unit 613 performs Wi-Fi communication connection establishment processing with the imaging device 20 as described above.

The voice input / output unit 62 is configured using a speaker and a microphone. The voice input / output unit 62 performs voice input / output of a voice call performed via the wireless communication unit 61. Also, the audio input / output unit 62 outputs the playback sound of music content or moving image content recorded in the storage unit 63 or the recording medium 71.

The storage unit 63 is a recording medium such as a RAM (Random Access Memory) and a ROM (Read Only Memory). The RAM is used as a work area of the control unit 70, for example. The ROM stores, for example, a program for executing various controls by the control unit 70. The ROM and RAM store control information used for performing various controls by the control unit 70. Further, music content, moving image content, various application programs, captured images supplied from the imaging device 20, mail information, and the like can be recorded in the RAM.

The recording / reproducing unit 64 uses the recording medium 71 to record various information and to read the recorded information. The recording / playback unit 64 records, for example, music content, moving image content, captured images, mail information, address information of others used in wireless communication, and the like on the recording medium 71. The recording / reproducing unit 64 reads various information recorded on the recording medium 71.

The power supply unit 65 is composed of a battery and a power supply circuit. The power supply unit 65 supplies power to each unit of the information processing apparatus 50.

The display unit 67 is configured using a display element such as a liquid crystal display or an organic EL display. The display unit 67 displays a GUI (Graphical User Interface) screen, characters, images, and the like corresponding to the operation of the application under the control of the control unit 70.

The operation input unit 68 is configured using operation switches and a touch panel. The touch panel is provided on the display screen of the display unit 67, and a function is assigned according to the display on the display screen. The operation input unit 68 generates an operation signal corresponding to the user operation and outputs it to the control unit 70. The display panel 52 described above includes a display unit 67 and an operation input unit 68.

The control unit 70 executes the program recorded in the storage unit 63 and generates a control signal based on the operation signal supplied from the operation input unit 68, the control information stored in the storage unit 63, and the like. The control unit 70 outputs the generated control signal to each unit, and performs communication control, display control, recording / reproduction control, and the like so that an operation according to a user operation is performed by the information processing apparatus 50. In addition, the control unit 70 controls the NFC communication unit 611 and the Wi-Fi communication unit 613 to perform wireless communication with the imaging device 20. Further, the control unit 70 activates a predetermined application program based on communication with the imaging device 20, and after the program is activated, at least any one of an operation position, an operation period, and a movement amount of the operation position of the zoom operation based on the operation signal. Accordingly, a process of generating a zoom control signal for controlling the zoom operation in the imaging apparatus and transmitting it to the imaging apparatus 20 is performed.

<2. Operation of imaging system>
[2-1. About cooperation between imaging device and information processing device]
Next, the operation of the imaging system will be described. FIG. 6 is a sequence diagram illustrating an operation process until the cooperation function between the imaging apparatus and the information processing apparatus is started in the imaging system.

In step ST1, the information processing apparatus 50 transmits a Polling Command by NFC communication. Here, if the NFC antenna 412 of the imaging device 20 is included within a predetermined radio wave reachable range from the NFC antenna 612 of the information processing device 50, the NFC communication unit 411 of the imaging device 20 detects the transmission of the Polling Command in step ST2. To do.

In step ST3, the NFC communication unit 411 of the imaging device 20 sends a detection notification to the camera control unit 45 in response to detecting the NFC communication from the information processing device 50.

In step ST4, the camera control unit 45 generates a control signal according to the detection notification from the NFC communication unit 411, outputs the control signal to the power supply unit 36, and controls the power supply ON.

In step ST5, the NFC communication unit 411 transmits a Command Response by NFC communication in response to detection of NFC communication.

In step ST6, the information processing device 50 detects a Command Response from the imaging device 20 to find an NFC communication partner and transmits a Check Command to acquire predetermined information.

In step ST7, the NFC communication unit 411 of the imaging device 20 outputs the Check２０Command received by NFC communication to the camera control unit 45.

In step ST8, the camera control unit 45 outputs response data to the NFC communication unit 411 in accordance with Check Command. Here, the response data includes, for example, the above-described Wi-Fi Config and AAR.

In step ST9, the NFC communication unit 411 transmits response data to the information processing apparatus 50 by NFC communication. Note that the above-described steps ST6 to ST9 may be performed a plurality of times, and the response data may be transmitted in a plurality of times.

In step ST10, the camera control unit 45 performs an imaging preparation operation. The camera control unit 45 performs a preparatory operation so that the imaging device 20 can perform imaging. In the preparatory operation, a preparatory operation may be performed that makes it possible to identify that the imaging device 20 is ready to capture an image. For example, when a retractable lens is used as the imaging optical system block 31, the camera control unit 45 performs an operation for projecting the lens, an operation for outputting a startup sound, and the like. The imaging preparation operation may be performed after the Wi-Fi connection is completed.

In step ST11, the information processing apparatus 50 starts a predetermined application according to the received AAR. For example, in a predetermined application, an image signal of a captured image transmitted from the imaging device 20 by Wi-Fi communication is received, and a process of displaying the captured image is performed.

In step ST12, the information processing apparatus 50 requests the imaging apparatus 20 for a Wi-Fi connection using the received Wi-Fi Config.

In step ST13, the Wi-Fi communication unit 413 of the imaging device 20 outputs the connection request received from the information processing device 50 to the camera control unit 45.

In step ST14, the camera control unit 45 performs Wi-Fi authentication. The Wi-Fi authentication may be performed by the Wi-Fi communication unit 413.

In step ST15, the camera control unit 45 outputs the authentication result to the Wi-Fi communication unit 413.

In step ST16, the Wi-Fi communication unit 413 transmits the authentication result to the information processing apparatus 50. In step ST17, the information processing apparatus 50 completes the Wi-Fi connection upon successful authentication. Thereafter, the imaging device 20 and the information processing device 50 implement a cooperation function using Wi-Fi communication.

The imaging device 20 and the information processing device 50 only need to be linked by Wi-Fi communication or the like, and the processing until the linkage function between the imaging device 20 and the information processing device 50 is performed is in the order shown in FIG. It is not limited to processing.

[2-2. Regarding the zoom operation of the imaging device]
Next, the zoom operation of the imaging device 20 when the cooperation function between the imaging device 20 and the information processing device 50 is realized will be described.

When the camera control unit 45 of the imaging apparatus 20 detects that the zoom button 441 has been operated based on the operation signal from the operation input unit 44, or the zoom control signal is supplied from the information processing apparatus 50 via Wi-Fi communication. When this is detected, the processing shown in FIG. 7 is performed.

FIG. 7 is a flowchart showing the operation of the imaging apparatus. In step ST21, the camera control unit 45 determines what zoom operation type the zoom request is. If the camera control unit 45 determines that the zoom request is made using the zoom button 441 provided in the imaging device 20, the process proceeds to step ST22. The camera control unit 45 proceeds to step ST24 when it is a zoom request from the information processing apparatus 50 and is a zoom request for performing zoom drive control only for a preset period. Furthermore, the camera control unit 45 proceeds to step ST25 when it is a zoom request from the information processing apparatus 50 and is a start instruction for zoom drive control. The zoom request indicates whether the zoom position is changed to the wide-angle side or the telephoto side based on a user operation.

In step ST22, the camera control unit 45 performs zoom drive control in the normal mode. The camera control unit 45 proceeds to step ST23 through a process of changing the zoom position at the normal change speed in the direction indicated by the zoom request from the operation input unit 44. FIG. 8 exemplifies the change characteristic of the zoom position. For example, when the zoom control is performed in the normal mode, the camera control unit 45 requests the zoom position at the zoom position change speed VA (corresponding to the normal change speed). Change to the direction indicated by.

In step ST23, the camera control unit 45 determines whether the zoom operation is completed. When it is determined that the operation of the zoom button 441 is continued, the camera control unit 45 returns to step ST22, and when it is determined that the operation of the zoom button 441 is ended, the zoom control is ended.

When the process proceeds from step ST21 to step ST24, the camera control unit 45 performs zoom drive control in the single shot mode. The camera control unit 45 changes the zoom position in the direction indicated by the zoom request from the information processing apparatus 50 only for a preset period at a low speed change speed that is lower than the normal change speed, for example, and performs zoom drive control. Exit. When performing the zoom drive control in the single shot mode, the camera control unit 45 sets the zoom position in advance in the direction indicated by the zoom request at the zoom position change speed VB that is lower than the zoom position change speed VA shown in FIG. Change only during the specified period. In the single mode, the zoom position may be changed at a normal change speed.

When the process proceeds from step ST21 to step ST25, the camera control unit 45 performs zoom drive control in the low speed mode. The camera control unit 45 proceeds to step ST26 in the direction indicated by the zoom request from the information processing device 50 at a low speed change speed that is lower than the normal change speed, for example. When performing the zoom drive control in the low speed mode, the camera control unit 45 changes the zoom position in the direction indicated by the zoom request, for example, at the zoom position change speed VB.

In step ST26, the camera control unit 45 determines whether the zoom operation is completed. The camera control unit 45 returns to step ST25 when the wireless operation signal indicates that the zoom operation is continued from the information processing device 50, and ends the zoom drive control when the end of the zoom operation is indicated.

Further, the camera control unit 45 performs the zoom position notification process shown in FIG. 9 during the period in which the zoom drive control is performed in the normal mode, the single shot mode, and the low speed mode, and the zoom position after the change in the imaging device 20 is determined. The information processing apparatus 50 may be notified.

In step ST31, the camera control unit 45 determines whether the zoom position has been changed. The camera control unit 45 proceeds to step ST32 when the zoom position is changed, and ends the process otherwise.

In step ST32, the camera control unit 45 issues a zoom position change notification. The camera control unit 45 transmits zoom position change information indicating the changed zoom position as a wireless signal to the information processing apparatus 50 via Wi-Fi communication.

In this way, by notifying the information processing device 50 of the zoom position from the imaging device 20, when the information processing device 50 performs a zoom operation of the imaging device 20, the zoom position of the imaging device 20 is confirmed by the information processing device 50. become able to. In the example of FIG. 7, the single mode is included in addition to the normal mode and the low speed mode, but the single mode may not be included.

[2-3. Zoom control operation of information processing device]
Next, the zoom control operation of the information processing apparatus will be described. FIG. 10 is a flowchart showing the operation of the information processing apparatus. When the cooperation function with the imaging device 20 is performed and the zoom operation of the imaging device 20 is performed, the information processing device 50 displays, for example, an icon for changing the zoom position to the wide-angle side on the screen of the display unit 67 and the telephoto. A GUI including an icon display for changing to the side is provided. An icon display for changing the zoom position to the wide-angle side is a wide-angle zoom button, and an icon display for changing to the telephoto side is a tele-zoom button. When the zoom operation is performed using the wide-angle zoom button or the telephoto zoom button, the information processing apparatus 50 performs the process from step ST41 and causes the imaging apparatus 20 to perform zoom drive control.

In step ST41, the control unit 70 determines whether the continuous operation period of the zoom operation is equal to or longer than a predetermined period. The control unit 70 proceeds to step ST42 when the operation period of either the wide-angle zoom button or the telephoto zoom button is equal to or greater than a predetermined period, and when the operation is terminated before the zoom button operation period is equal to or greater than the predetermined period. Then, the process proceeds to step ST45. For example, when either the wide-angle zoom button or the telephoto zoom button is operated for a period shorter than a predetermined period (hereinafter referred to as “touch operation”), the process proceeds to step ST45. When either the wide-angle zoom button or the telephoto zoom button has been operated for a predetermined period (hereinafter referred to as “push operation”), the process proceeds to step ST42.

In step ST42, the control unit 70 issues a zoom start instruction. The control unit 70 determines whether the wide-angle zoom button or the telephoto zoom button has been operated, and generates a zoom control signal for starting zoom drive control for changing the zoom position in the direction of the operated zoom button. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and proceeds to step ST43.

In step ST43, the control unit 70 determines whether the zoom operation is finished. The control unit 70 proceeds to step ST44 when the zoom operation using either the wide-angle zoom button or the telephoto zoom button is completed, and returns to step ST43 when the zoom operation is continued.

In step ST44, the control unit 70 issues a zoom end instruction. The control unit 70 generates a zoom control signal for ending the zoom drive control for changing the zoom position. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and ends the process.

When proceeding from step ST41 to step ST45, the control unit 70 designates the single mode. The control unit 70 generates a zoom control signal for performing zoom driving control in a single mode in which zoom driving control is performed only for a preset period. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and ends the process.

As described above, the control unit 70 generates a zoom control signal for controlling the zoom operation in the imaging apparatus 20 according to the operation position and operation period of the zoom operation, and transmits the generated zoom control signal to the imaging apparatus 20.

Further, when the zoom position change notification is performed by the imaging device 20, the control unit 70 performs zoom position display processing shown in FIG.

In step ST51, the control unit 70 determines whether zoom position change information has been received. The control unit 70 returns to step ST51 when the wireless signal indicating the zoom position change information is not received from the imaging device 20, and proceeds to step ST52 when the wireless signal indicating the zoom position change information is received.

In step ST52, the control unit 70 updates the zoom position display. The control unit 70 changes the zoom position indicated by, for example, zoom bar display on the screen of the display unit 67 to the changed zoom position, and ends the process.

FIG. 12 illustrates a display screen of the display unit in the information processing apparatus. Note that FIG. 12 is a display screen when, for example, a cooperation function between the information processing apparatus and the imaging apparatus is implemented.

The image GA1 is a camera-through image, a recorded still image, a moving image being recorded, or a reproduced still image or moving image. The image GA2 is a zoom button, and is provided with a wide-angle zoom button (W) and a telephoto zoom button (T). The image GA3 is a zoom bar display indicating the zoom position. The image GA4 is an imaging mode switching button for selecting whether the captured image is a still image or a moving image. The image GA5 is a shutter button, and is an operation button for starting and stopping still image capturing and moving image recording. The image GA6 is an information display indicating a mounting state of the recording medium 46, a recording mode when recording the captured image on the recording medium 46, and the like. The image GA7 is an imaging mode display indicating what imaging mode it is. The image GA8 is a playback button for playing back a recorded still image or moving image. The image GA9 is a setting button used when performing various settings of the imaging device 20.

The user touches or pushes the zoom button of the image GA2 when changing the zoom position of the imaging device 20 to the wide-angle side or the telephoto side. When the control unit 70 detects that a touch operation or a push operation has been performed in the display area of the image GA2, the zoom position is determined based on whether the wide-angle side (W) or the telephoto side (T) of the zoom button has been operated. Determine the direction of change. In addition, the control unit 70 transmits a zoom control signal including information indicating the change direction in which the zoom position is determined to the imaging device 20 by Wi-Fi communication. Further, the control unit 70 generates a zoom control signal for performing the zoom drive control in the single mode in the case of the touch operation and starting the zoom drive control in the low speed mode in the case of the push operation. Furthermore, the control unit 70 generates a zoom control signal for ending the zoom drive control in the low speed mode when the push operation is ended.

As described above, the cooperation function between the imaging device 20 and the information processing device 50 is implemented, and when the zoom operation is performed by the information processing device 50, the zoom position is larger than when the zoom operation is performed by the imaging device 20. The change speed is slow. Therefore, even if the response to the zoom operation of the information processing device 50 is slower than when the zoom operation is performed with the imaging device 20, the amount of change in the zoom position with respect to the operation period is reduced, so that the zoom position can be changed to a desired position. It becomes easy. That is, the zoom position change speed is switched to a suitable speed by each of the zoom operation received by the operation input unit 44 of the imaging device 20 and the zoom operation received by the external device, for example, the information processing device 50 operation input unit 68. . As described above, the zoom position change speed can be switched between a speed suitable for the zoom operation received by the operation input unit and a speed suitable for the zoom operation performed by the external device. A zoom operation with good operability can be performed regardless of which device is used. In this example, the single mode is included in addition to the normal mode and the low speed mode, but the single mode may not be included.

<3. Other operations of the imaging system>
[3-1. Other operations of imaging apparatus]
In the imaging apparatus 20 described above, the zoom position changing speed is set to a constant speed in advance, and when the zoom operation is performed by the information processing apparatus 50, the speed is lower than when the zoom operation is performed by the imaging apparatus 20. The zoom operation is performed by selecting a constant speed. For example, in the case of a zoom request using the zoom button 441 provided in the imaging apparatus 20, the zoom position change speed is the first zoom position change speed VA, and in the case of a zoom request from the information processing apparatus 50, the zoom position is changed. The change speed is a second zoom position change speed VB that is slower than the first zoom position change speed. However, the zoom position change speed is not limited to a constant speed and may be changed during the zoom operation. In the case of a zoom request from the information processing device 50, the zoom position change speed may be a zoom position change speed that is faster than the first zoom position change speed VA.

Next, as another operation in the imaging apparatus, an operation for switching the zoom position changing speed during the zoom operation when the zoom operation is performed in the information processing apparatus 50 will be described.

FIG. 13 exemplifies the zoom position change characteristics of other operations. For example, the second zoom position change speed VB is switched to the first zoom position change speed VA based on the zoom position change period. Yes. In the case of a zoom request from the information processing device 50, the camera control unit 45 of the imaging device 20 is, for example, the second zoom position change speed VB until the zoom position change period (corresponding to the push operation period) reaches the time Ta. And Thereafter, when the zoom position change period exceeds the time Ta, the zoom position is changed at the first zoom position change speed VA.

In this way, when the zoom operation is performed by the information processing apparatus 50, the zoom position can be changed little by little at the start of the zoom operation, and when the push operation is continued beyond the time Ta, the zoom position is increased at high speed. Can be changed. Therefore, when the desired zoom position is far from the current zoom position, the zoom position can be efficiently changed to the desired position.

Furthermore, the imaging device 20 is not limited to changing the zoom position at a preset zoom position change speed, but may change the zoom position at a zoom position change speed instructed from the information processing apparatus 50. For example, when the zoom position change speed is indicated by the zoom control signal from the information processing apparatus 50, the zoom drive control is performed so that the zoom position is changed at the zoom position change speed. The imaging apparatus 20 may change the target zoom position instructed from the information processing apparatus 50 at a preset zoom position changing speed or a zoom position changing speed instructed from the information processing apparatus 50. For example, when the target zoom position is indicated by the zoom control signal from the information processing apparatus 50, zoom drive control is performed so as to change the zoom position to the target zoom position. If such a zoom operation is performed, various zoom operations are possible, and the operability can be improved.

[3-2. Other operations of information processing apparatus]
In the information processing apparatus described above, the single mode is designated or the zoom drive control is started and ended in accordance with the operation of the zoom button. However, the information processing apparatus is not limited to the zoom button operation, and may perform zoom drive control of the imaging apparatus 20 according to other user operations, for example, a pinch operation.

FIG. 14 is a flowchart showing an operation when zoom drive control is performed according to the operation time of the pinch operation performed by the operation input unit of the information processing apparatus.

In step ST61, the control unit 70 determines whether a pinch operation has been started. The control unit 70 proceeds to step ST62 when it is determined that the pinch operation is started based on the operation signal from the operation input unit 68, and otherwise returns to step ST61.

In step ST62, the control unit 70 issues a zoom start instruction. The control unit 70 determines whether the pinch operation is a pinch-in or a pinch-out, and generates a zoom control signal that starts changing the zoom position in the zoom direction based on the determination result. For example, when the operation direction is pinch-in, the zoom position is changed to the wide-angle side so that a captured image with a wider field angle range can be obtained. When the operation direction is pinch out, the zoom position is changed to the telephoto side so that an enlarged image of a desired subject can be obtained. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and proceeds to step ST63.

In step ST63, the control unit 70 determines whether the pinch operation has been completed. The control unit 70 proceeds to step ST64 when determining that the pinch operation has ended based on the operation signal from the operation input unit 68, and returns to step ST63 otherwise.

In step ST64, the control unit 70 issues a zoom end instruction. The control unit 70 generates a zoom control signal for ending the zoom position change. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and ends the process.

If such processing is performed, the information processing apparatus 50 can change the zoom position of the imaging apparatus 20 not only by the zoom button operation but also by a pinch operation. Furthermore, in the processing shown in FIG. 14, if the operation period is lengthened when the pinch operation is delayed and the movement amount of the pinch operation position is equal, the zoom position change period becomes longer, and the zoom position change amount is reduced. Can be bigger.

Next, FIG. 15 is a flowchart showing an operation when zoom drive control is performed in accordance with the amount of movement of the pinch operation position performed by the operation input unit 68 of the information processing apparatus 50.

In step ST71, the control unit 70 determines whether a pinch operation has been started. The control unit 70 proceeds to step ST72 when determining that the pinch operation has been started based on the operation signal from the operation input unit 68, and returns to step ST71 otherwise.

In step ST72, the control unit 70 acquires the movement amount of the pinch operation position (hereinafter referred to as “pinch movement amount”). Based on the operation signal from operation input unit 68, control unit 70 obtains the amount of pinch movement for a predetermined time, and proceeds to step ST73.

In step ST73, the control unit 70 sets the zoom position change period according to the pinch movement amount. For example, the control unit 70 sets the zoom position change period according to the pinch movement amount so that the zoom position change period becomes longer as the pinch movement amount becomes larger, and proceeds to step ST74.

In step ST74, the control unit 70 issues a zoom operation instruction. FIG. 16 is a flowchart showing a zoom operation instruction. In step ST741, the control unit 70 issues a zoom start instruction. The control unit 70 determines whether the pinch operation is a pinch-in or a pinch-out, and generates a zoom control signal that starts changing the zoom position in the zoom direction based on the determination result. For example, when the operation direction is pinch-in, the zoom position is changed to the wide-angle side so that a captured image with a wider field angle range can be obtained. When the operation direction is pinch out, the zoom position is changed to the telephoto side so that an enlarged image of a desired subject can be obtained. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and proceeds to step ST742.

In step ST742, the control unit 70 determines whether the zoom position change period has elapsed. The control unit 70 returns to step ST742 if the zoom position change period set in step ST73 has not elapsed, and proceeds to step ST743 if the zoom position change period has elapsed.

In step ST743, the control unit 70 issues a zoom end instruction. The control unit 70 generates a zoom control signal for ending the zoom position change. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and ends the zoom operation instruction.

When the zoom operation instruction in step ST74 ends and the process proceeds to step ST75, the control unit 70 determines whether or not the pinch operation is ended. The control unit 70 returns to step ST72 when determining that the pinch operation has not ended based on the operation signal from the operation input unit 68, and ends the process when determining that the pinch operation has ended.

If such processing is performed, the information processing apparatus 50 can change the zoom position of the imaging apparatus 20 not only by the zoom button operation but also by a pinch operation. In addition, since the zoom position change period is set according to the pinch movement amount, the zoom position change period in the imaging device 20 can be easily adjusted by adjusting the pinch movement amount, and as a result, the zoom movement. The amount can be easily adjusted.

Next, FIG. 17 is a flowchart illustrating an operation in the case where zoom drive control is performed according to the pinch movement amount of the pinch operation performed by the operation input unit 68 of the information processing apparatus 50 and the current zoom magnification (zoom position). is there.

In step ST91, the control unit 70 determines whether a pinch operation has been started. The control unit 70 proceeds to step ST92 when determining that the pinch operation has been started based on the operation signal from the operation input unit 68, and returns to step ST91 otherwise.

In step ST92, the control unit 70 acquires the pinch movement amount. Based on the operation signal from operation input unit 68, control unit 70 acquires the amount of movement in a predetermined time, and proceeds to step ST93.

In step ST93, the control unit 70 determines a target magnification (target zoom position). The control unit 70 calculates a target magnification based on the pinch movement amount acquired in step ST92 and the current zoom position (current magnification) notified from the imaging device 20, and proceeds to step ST94. For example, when the operation direction is pinch-in, the control unit 70 determines the target magnification on the wide-angle side based on the pinch movement amount and the current magnification so that a captured image with a wider field angle range can be obtained. For example, when the operation direction is pinch out, the control unit 70 determines the target magnification on the telephoto side so as to obtain an enlarged image of a desired subject based on the pinch movement amount and the current magnification.

In step ST94, the control unit 70 performs target magnification notification processing. The control unit 70 generates a zoom control signal indicating the target magnification determined in step ST93. The control unit 70 outputs the generated zoom control signal to the Wi-Fi communication unit 613 of the wireless communication unit 61, transmits the zoom control signal from the Wi-Fi antenna 614 to the imaging device 20, and proceeds to step ST95.

In step ST95, the control unit 70 determines whether the pinch operation has been completed. The control unit 70 determines whether the pinch operation has been completed based on the operation signal from the operation input unit 68. The control unit 70 returns to step ST92 when the end of the pinch operation has not been determined, and ends the process when it is determined that the pinch operation has ended.

If such processing is performed, the information processing apparatus 50 can change the zoom position of the imaging apparatus 20 not only by a zoom button operation but also by a pinch operation. Further, by performing the processing shown in FIG. 17, zoom drive control can be performed so that a captured image with a target magnification can be obtained.

Further, the imaging apparatus 20 may change the zoom position at the zoom position change speed indicated by the information processing apparatus 50 without being limited to the information on the held zoom position movement speed. Further, the zoom position change speed indicated by the information processing device 50 may be higher than the zoom position change speed of the zoom operation (normal mode zoom operation) based on the zoom operation of the operation input unit 44. In this case, the information processing apparatus 50 determines the zoom position change speed according to the user operation and notifies the imaging apparatus 20 of it. For example, when determining the zoom position change speed according to the pinch operation, the control unit 70 sets the zoom position change speed according to the pinch movement amount in a predetermined time. Specifically, the zoom position changing speed is set to increase as the pinch movement amount in a predetermined time increases. In this way, the user can change the zoom position at a desired speed. If the zoom position change speed is made faster than the zoom position change speed VA in the normal mode as the amount of pinch movement during a predetermined time increases, the zoom position is changed faster than the zoom button operation of the imaging device 20. It becomes possible. When the zoom position is changed by the imaging apparatus 20 at the zoom position change speed indicated by the information processing apparatus 50, the imaging apparatus 20 has a zoom position in the zoom operation based on the zoom control signal from the information processing apparatus 50. It is not necessary to hold information on the change speed.

The series of processes described in the specification can be executed by hardware, software, or a combined configuration of both. When processing by software is executed, a program in which a processing sequence is recorded is installed and executed in a memory in a computer incorporated in dedicated hardware. Alternatively, the program can be installed and executed on a general-purpose computer capable of executing various processes.

For example, the program can be stored in advance in a hard disk, SSD (Solid State Drive), or ROM (Read Only Memory) as a storage medium. Alternatively, the program is a flexible disk, CD-ROM (Compact Disc Read Only Memory), MO (Magneto optical disc), DVD (Digital Versatile Disc), BD (Blu-Ray Disc (registered trademark)), magnetic disc, semiconductor memory card. Such a removable recording medium can be stored (recorded) temporarily or permanently as a storage medium. Such a removable recording medium can be provided as so-called package software.

In addition to installing the program from the removable recording medium to the computer, the program may be transferred from the download site to the computer wirelessly or by wire via a network such as a LAN (Local Area Network) or the Internet. The computer can receive the program transferred in this manner and install it in a storage medium such as a built-in hard disk.

Note that the present technology should not be construed as being limited to the embodiments of the technology described above. The embodiments of this technology disclose the present technology in the form of examples, and it is obvious that those skilled in the art can make modifications and substitutions of the embodiments without departing from the gist of the present technology. In other words, the scope of the claims should be considered in order to determine the gist of the present technology.

Furthermore, the lens control device of the present technology can also have the following configuration.
(1) an operation input unit that receives user operations;
A communication unit that communicates with an external device;
The zoom operation is controlled according to the zoom operation received by the operation input unit or the zoom control signal received by the communication unit, and the drive control according to the zoom operation and the drive control according to the zoom control signal A lens control device comprising: a control unit that sets different zoom position changing speeds.
(2) The lens control device according to (1), wherein the control unit sets a zoom position change speed in drive control according to the zoom control signal to be slower than drive control according to the zoom operation.
(3) The control unit starts the drive control of the zoom lens by setting the zoom position change speed in the drive control according to the zoom control signal to be slower than the drive control according to the zoom operation, and then zooms The lens control device according to claim 2, wherein the position change speed is a zoom position change speed of zoom drive control according to the zoom operation.
(4) When the zoom control signal indicates that a zoom operation shorter than a predetermined period has been performed in the external device, the control unit performs the drive control only for a preset period (1) to ( The lens control device according to any one of 3).
(5) The lens control device according to any one of (1) to (4), wherein the control unit changes a zoom position of the zoom lens to a target zoom position indicated by the zoom control signal.
(6) The lens control device according to any one of (1) to (5), wherein the control unit changes a zoom position of the zoom lens at a zoom position change speed indicated by the zoom control signal.
(7) The lens control device according to any one of (1) to (6), wherein the communication unit transmits information indicating a zoom position of the zoom lens to the external device.
(8) The lens control device according to any one of (1) to (7), wherein the communication unit performs wireless communication with the external device.

In the lens control device, the imaging device, the information processing device, the imaging system, and the method and program of this technology, drive control of the zoom lens is performed according to the zoom operation received by the operation input unit or the zoom control signal received by the communication unit. Thus, the zoom position change speed is set to be different between the drive control according to the zoom operation and the drive control according to the zoom control signal. For this reason, the zoom position change speed is switched between a speed suitable for the zoom operation received by the operation input unit and a speed suitable for the zoom operation performed by the zoom control signal, that is, the external device. Therefore, it is possible to perform a zoom operation with good operability regardless of whether the zoom operation is performed by an imaging apparatus or an external apparatus, and the zoom operation is suitable for an imaging apparatus capable of remote control, for example.

DESCRIPTION OF SYMBOLS 10 ... Imaging system, 20 ... Imaging device, 21 ... Outer cylinder part, 22 ... Control ring, 25 ... Rear panel, 26 ... Coupling part, 27 ... Lock pin, 31 ... Imaging optical system block, 32 ... Imaging unit, 33 ... Image processing unit, 34, 64 ... Recording / reproducing unit, 35, 67 ... Display unit, 36, 65 ... Power supply unit 37, time management unit, 38, 63 ... storage unit, 39 ... posture detection unit, 41, 61 ... wireless communication unit, 44, 68 ... operation input unit, 45 ...

Camera control unit

46, 71 ... Recording medium, 50 ... Information processing device, 51 ... Outer casing, 52 ... Display panel, 62 ... Audio input / output unit, 68 ... Operation input , 70... Control unit, 80... Adapter, 81... Casing, 82. Nipping part, 84 ... holding projection, 85 ... first opposing surface, 86 ... second opposing surface, 411, 611 ... NFC communication part, 412, 612 ... NFC antenna, 413, 613 ... Wi-Fi communication unit, 414, 614 ... Wi-Fi antenna, 441 ... zoom button, 442 ... shutter button

Claims

An operation input unit that accepts user operations;
A communication unit that communicates with an external device;
The zoom operation is controlled according to the zoom operation received by the operation input unit or the zoom control signal received by the communication unit, and the drive control according to the zoom operation and the drive control according to the zoom control signal A lens control device comprising: a control unit that sets different zoom position changing speeds.
The lens control device according to claim 1, wherein the control unit sets a zoom position changing speed in the drive control according to the zoom control signal to be slower than the drive control according to the zoom operation.
The control unit starts the drive control of the zoom lens by setting the zoom position change speed in the drive control according to the zoom control signal as a speed slower than the drive control according to the zoom operation, and then the zoom position change speed The lens control device according to claim 2, wherein a zoom position change speed of drive control corresponding to the zoom operation is set.
The lens control device according to claim 1, wherein the control unit performs the drive control only for a preset period when the zoom control signal indicates that a zoom operation shorter than a predetermined period has been performed in the external device. .
The lens control device according to claim 1, wherein the control unit changes a zoom position of the zoom lens to a target zoom position indicated by the zoom control signal.
The lens control device according to claim 1, wherein the control unit changes a zoom position of the zoom lens at a zoom position change speed indicated by the zoom control signal.
The lens control device according to claim 1, wherein the communication unit transmits information indicating a zoom position of the zoom lens to the external device.
The lens control device according to claim 1, wherein the communication unit performs wireless communication with the external device.
Communicating with an external device in the communication unit;
The control unit performs drive control of the zoom lens according to the zoom operation received by the operation input unit or the zoom control signal received by the communication unit, and the drive control according to the zoom operation and the drive according to the zoom control signal And a step of changing the zoom position changing speed to a different speed depending on the control.
A computer that controls the drive of the zoom lens.
A procedure for communicating with an external device via a communication unit;
The zoom lens is driven according to the zoom operation received by the operation input unit or the zoom control signal received from the external device via the communication unit, and the drive control according to the zoom operation and the zoom control signal are performed. A computer-readable storage medium storing a program for executing a procedure for changing the zoom position changing speed to a different speed by the drive control.
An imaging optical system including a zoom lens;
An operation input unit that accepts user operations;
A communication unit that communicates with an external device;
The zoom control is performed according to the zoom operation at the operation input unit or the zoom control signal received at the communication unit, and the zoom is performed by the drive control according to the zoom operation and the drive control according to the zoom control signal. An imaging apparatus comprising: a control unit that changes the position change speed to different speeds.
A communication unit that communicates with the imaging device;
An operation input unit that accepts user operations;
A zoom control signal for controlling a zoom operation in the imaging device is generated according to at least one of an operation position and an operation period of the zoom operation in the operation input unit and a movement amount of the operation position, and the communication unit is configured to An information processing apparatus comprising: a control unit that outputs to the imaging apparatus.
The information processing apparatus according to claim 12, wherein the control unit sets a zoom position change period of a zoom operation in the imaging apparatus according to a movement amount of the operation position.
The control unit acquires a zoom position from the imaging device via the communication unit, and the target after the change of the zoom operation in the imaging device from the movement amount of the operation position and the acquired zoom position of the zoom lens The information processing apparatus according to claim 12, wherein the zoom position is determined.
The information processing apparatus according to claim 12, wherein the control unit determines a zoom position change speed of a zoom operation in the imaging apparatus according to a moving speed of the operation position.
Communicating with the imaging device in the communication unit;
The control unit generates a zoom control signal for controlling a zoom operation in the imaging device according to at least one of an operation position, an operation period, and a movement amount of the operation position received by the operation input unit. An information processing method including outputting to the imaging device via a communication unit.
A computer that performs drive control of a zoom lens provided in an imaging device,
A procedure for communicating with the imaging device via a communication unit;
In response to a zoom operation accepted by the operation input unit, a zoom control signal for controlling a zoom operation in the imaging device is generated and output to the imaging device via the communication unit.
A computer-readable storage medium storing a program in which zoom position change speed is different between drive control of a zoom operation according to a zoom operation by an operation input unit of the imaging apparatus and drive control of a zoom operation according to the zoom control signal .
Having an imaging device and an information processing device;
The imaging device
An imaging optical system including a zoom lens;
An operation input unit that accepts user operations;
A communication unit for communicating with the information processing apparatus;
A control unit that performs drive control of the zoom lens in response to a zoom operation in the operation input unit or a zoom control signal received in the communication unit,
The information processing apparatus includes:
A communication unit for communicating with the imaging device;
An operation input unit that accepts user operations;
A control unit that generates a zoom control signal for controlling a zoom operation in the imaging apparatus according to a zoom operation in the operation input unit, and outputs the zoom control signal to the imaging apparatus via the communication unit;
An imaging system in which a zoom position change speed is different between drive control corresponding to the zoom operation in the control unit of the image pickup apparatus and drive control corresponding to the zoom control signal.
The operation input unit of the imaging apparatus has a configuration in which functions are assigned to physical switches in advance,
The information processing device includes a display unit that displays a captured image acquired from the imaging device via the communication unit, and the operation input unit of the information processing device is a touch panel provided on a display screen of the display unit The imaging system according to claim 18, wherein a function is assigned according to display on the display screen.